In this paper, we report a new scheme to amplify a microwave signal carried
on a laser light at $\lambda$=852nm. The amplification is done via a
semiconductor tapered amplifier and this scheme is used to drive stimulated
Raman transitions in an atom interferometer. Sideband generation in the
amplifier, due to self-phase and amplitude modulation, is investigated and
characterized. We also demonstrate that the amplifier does not induce any
significant phase-noise on the beating signal. Finally, the degradation of the
performances of the interferometer due to the amplification process is shown to
be negligible

A. Gauguet

A. Landragin

A.J. Seeds

B. Canuel

C. Daussy

C.J. Bordé

D.S. Weiss

F. Kéfélian

G. Ferrari

G. Santarelli

G.P. Agrawal

J.L. Hall

K. Moler

K. Takase

L. Goldberg

L. Morvan

M. Kasevich

M.J. O’Mahony

P. Cheinet

R. Wynands

R.A. Nyman

T. Lévèque

T. Müller

W. Chaibi

X. Baillard

English

arXiv

International audienceIn this paper, we report a new scheme to amplify a microwave signal carried on a laser light at lambda=852 nm. The amplification is done via a semiconductor tapered amplifier and this scheme is used to drive stimulated Raman transitions in an atom interferometer. Sideband generation in the amplifier, due to self-phase and amplitude modulation, is investigated and characterized. We also demonstrate that the amplifier does not induce any significant phase-noise on the beating signal. Finally, the degradation of the performances of the interferometer due to the amplification process is shown to be negligible

Lévèque, T.

Gauguet, Alexandre

Chaibi, W.

Landragin, Arnaud

HAL-OBSPM

Low noise amplification of an optically carried microwave signal: application to atom interferometry

Archive ouverte de Sorbonne Université

Crossref

In this paper, we report a new scheme to amplify a microwave signal carried on a laser light at $\lambda$=852nm. The amplification is done via a semiconductor tapered amplifier and this scheme is used to drive stimulated Raman transitions in an atom interferometer. Sideband generation in the amplifier, due to self-phase and amplitude modulation, is investigated and characterized. We also demonstrate that the amplifier does not induce any significant phase-noise on the beating signal. Finally, the degradation of the performances of the interferometer due to the amplification process is shown to be negligible

Lévèque, Thomas

Chaibi, Walid

HAL-INSU